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I was somewhat surprised to find that std::shared_ptr provides no protection (eg, throw an exception) against situations when its pointed-to object has somehow been deleted. I imagine this is for performance reasons; assuming shared_ptr is doing its job the object the shared_ptr points to should have never been deleted, so it'd be silly to waste the cycles constantly checking.

I know I can check explicitly for whether a shared_ptr is valid, but if shared_ptr is "doing its job" to maintain object lifetime it would seem overkill to explicitly check every time I touch a shared_ptr.

So my question is, how cautious should I be in light of this? Is there a "rule of thumb" as to if, how often, or when I should check the shared_ptr?

My best conclusion so far would mimic Java: Any time you're handed a reference to an object in Java that you didn't create, you should check it for null. Would this be a good policy for shared_ptr?

share|improve this question
shared_ptr<int> ptr; creates a null pointer. Why do you think this should throw? shared_ptr will throw if you try to dereference a null pointer, but having a null pointer is not exceptional at all. It's not like shared_ptr can get set to null behind your back. Pointers are only set to null when you set them to null, one way or another. – bames53 Feb 2 '12 at 18:55
@bames53: shared_ptr will throw if you try to dereference a null pointer since when? In fact, the dereference operator is marked noexcept. Anyway, Bret is talking about pointers that originate in another scope, e.g. passed into one of his functions. – Lightness Races in Orbit Feb 2 '12 at 18:57
@LightnessRacesinOrbit You're right, it doesn't. I'm thinking of a different smart pointer class used in projects I work on. So strike out "shared_ptr will throw if you try to dereference a null pointer, but" and just leave "having a null pointer is not exceptional at all". – bames53 Feb 2 '12 at 19:00
"situations when its pointed-to object has somehow become null" How on earth could this ever happen unless you're already in UB-land? This seems like a total non-question to me. – ildjarn Feb 2 '12 at 19:02
@bames53: Agreed. – Lightness Races in Orbit Feb 2 '12 at 19:05
up vote 6 down vote accepted

Just like any other pointer, check it before you use it if you have any reason to suspect that it might wrap a null pointer.

shared_ptr does help to manage the lifetime of an object that it points to, but that is a completely separate task from deciding whether it does point to an object.

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Thanks, after reading my question again, I realized I was misleading with my use of the word null (Java habit, I guess), yet you still managed to give me a pretty sensible answer. – Bret Kuhns Feb 2 '12 at 20:40

std::shared_ptr provides no protection (eg, throw an exception) against situations when its pointed-to object has somehow become null.

The C++ language recognizes no such thing as a NULL object.

If you mean protection against an object getting deleted, you can absolutely protect against that, by not mixing smart pointers and raw pointers to the same object.

If you only have smart pointers like std::shared_ptr pointing to an object, you never have to delete the object and it won't get deleted prematurely.

share|improve this answer
He clearly means when the pointer that sometimes points to a pointed-to object has somehow become null – Lightness Races in Orbit Feb 2 '12 at 18:42
@LightnessRacesinOrbit: The pointer stored in a shared_ptr? Isn't it well-defined when that becomes NULL? Or at least well-defined when it won't? If that's what you mean, I think my answer addresses that. – Drew Dormann Feb 2 '12 at 18:51
Not really. A "null pointer" is well defined: it's a pointer with the value 0. De-allocation of objects has nothing to do with it, which is what your answer seems to be talking about. – Lightness Races in Orbit Feb 2 '12 at 18:54
@LightnessRacesinOrbit: A null pointer is well defined, I agree. I didn't intend to imply that it wasn't. – Drew Dormann Feb 2 '12 at 19:05

As a practice I don't use null pointers (or null smart pointers) to convey state because it complicates whether and when you should be checking for null and complication == bugs. Therefore I never check for null, I just use the pointer knowing it's good.

The only time I use null pointers is for deferred initialization of members (sometimes a pointer will get constructed after some reading of some data so I can't initialize it in the member initialization list).

share|improve this answer
You don't "know" that it's good. You may have forgotten to initialise it, or you may accidentally have name hiding giving you a shared_ptr that perhaps isn't the one you thought it was. Though that's the stuff of assert, I guess – Lightness Races in Orbit Feb 2 '12 at 18:47
Yes, I should have mentioned that I guess. I assert for cases like that. I don't try to error handle internal code bugs that should never happen, I only handle errors caused from external sources. – David Feb 2 '12 at 18:50
*nods* Likes it. – Lightness Races in Orbit Feb 2 '12 at 18:53
Ah, assert makes a lot of sense. I recently saw some asinine code that checked 7-8 pointers for null in a series of nested if statements. The code started to approach a dozen levels of indentation and it hadn't yet done anything of substance. With that in mind, I was wondering if such an ugly practice could be automatically avoided with a shared_ptr. It seems, instead, whether a raw pointer or smart_ptr, one should simply assert and let the code "bomb out" if an external source caused undefined behavior. – Bret Kuhns Feb 2 '12 at 20:50
I'd also like to point out that my original question wasn't implying the use of null to indicate state. I'm, as you, very much against that practice. – Bret Kuhns Feb 2 '12 at 20:51

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